DockerCLI/cli/command/formatter/container.go

398 lines
11 KiB
Go

// FIXME(thaJeztah): remove once we are a module; the go:build directive prevents go from downgrading language version to go1.16:
//go:build go1.22
package formatter
import (
"fmt"
"net"
"sort"
"strconv"
"strings"
"time"
"github.com/distribution/reference"
"github.com/docker/docker/api/types"
"github.com/docker/docker/pkg/stringid"
"github.com/docker/go-units"
)
const (
defaultContainerTableFormat = "table {{.ID}}\t{{.Image}}\t{{.Command}}\t{{.RunningFor}}\t{{.Status}}\t{{.Ports}}\t{{.Names}}"
namesHeader = "NAMES"
commandHeader = "COMMAND"
runningForHeader = "CREATED"
mountsHeader = "MOUNTS"
localVolumes = "LOCAL VOLUMES"
networksHeader = "NETWORKS"
)
// NewContainerFormat returns a Format for rendering using a Context
func NewContainerFormat(source string, quiet bool, size bool) Format {
switch source {
case TableFormatKey, "": // table formatting is the default if none is set.
if quiet {
return DefaultQuietFormat
}
format := defaultContainerTableFormat
if size {
format += `\t{{.Size}}`
}
return Format(format)
case RawFormatKey:
if quiet {
return `container_id: {{.ID}}`
}
format := `container_id: {{.ID}}
image: {{.Image}}
command: {{.Command}}
created_at: {{.CreatedAt}}
state: {{- pad .State 1 0}}
status: {{- pad .Status 1 0}}
names: {{.Names}}
labels: {{- pad .Labels 1 0}}
ports: {{- pad .Ports 1 0}}
`
if size {
format += `size: {{.Size}}\n`
}
return Format(format)
default: // custom format
if quiet {
return DefaultQuietFormat
}
return Format(source)
}
}
// ContainerWrite renders the context for a list of containers
func ContainerWrite(ctx Context, containers []types.Container) error {
render := func(format func(subContext SubContext) error) error {
for _, container := range containers {
err := format(&ContainerContext{trunc: ctx.Trunc, c: container})
if err != nil {
return err
}
}
return nil
}
return ctx.Write(NewContainerContext(), render)
}
// ContainerContext is a struct used for rendering a list of containers in a Go template.
type ContainerContext struct {
HeaderContext
trunc bool
c types.Container
// FieldsUsed is used in the pre-processing step to detect which fields are
// used in the template. It's currently only used to detect use of the .Size
// field which (if used) automatically sets the '--size' option when making
// the API call.
FieldsUsed map[string]any
}
// NewContainerContext creates a new context for rendering containers
func NewContainerContext() *ContainerContext {
containerCtx := ContainerContext{}
containerCtx.Header = SubHeaderContext{
"ID": ContainerIDHeader,
"Names": namesHeader,
"Image": ImageHeader,
"Command": commandHeader,
"CreatedAt": CreatedAtHeader,
"RunningFor": runningForHeader,
"Ports": PortsHeader,
"State": StateHeader,
"Status": StatusHeader,
"Size": SizeHeader,
"Labels": LabelsHeader,
"Mounts": mountsHeader,
"LocalVolumes": localVolumes,
"Networks": networksHeader,
}
return &containerCtx
}
// MarshalJSON makes ContainerContext implement json.Marshaler
func (c *ContainerContext) MarshalJSON() ([]byte, error) {
return MarshalJSON(c)
}
// ID returns the container's ID as a string. Depending on the `--no-trunc`
// option being set, the full or truncated ID is returned.
func (c *ContainerContext) ID() string {
if c.trunc {
return stringid.TruncateID(c.c.ID)
}
return c.c.ID
}
// Names returns a comma-separated string of the container's names, with their
// slash (/) prefix stripped. Additional names for the container (related to the
// legacy `--link` feature) are omitted.
func (c *ContainerContext) Names() string {
names := StripNamePrefix(c.c.Names)
if c.trunc {
for _, name := range names {
if len(strings.Split(name, "/")) == 1 {
names = []string{name}
break
}
}
}
return strings.Join(names, ",")
}
// StripNamePrefix removes prefix from string, typically container names as returned by `ContainersList` API
func StripNamePrefix(ss []string) []string {
sss := make([]string, len(ss))
for i, s := range ss {
sss[i] = s[1:]
}
return sss
}
// Image returns the container's image reference. If the trunc option is set,
// the image's registry digest can be included.
func (c *ContainerContext) Image() string {
if c.c.Image == "" {
return "<no image>"
}
if c.trunc {
if trunc := stringid.TruncateID(c.c.ImageID); trunc == stringid.TruncateID(c.c.Image) {
return trunc
}
// truncate digest if no-trunc option was not selected
ref, err := reference.ParseNormalizedNamed(c.c.Image)
if err == nil {
if nt, ok := ref.(reference.NamedTagged); ok {
// case for when a tag is provided
if namedTagged, err := reference.WithTag(reference.TrimNamed(nt), nt.Tag()); err == nil {
return reference.FamiliarString(namedTagged)
}
} else {
// case for when a tag is not provided
named := reference.TrimNamed(ref)
return reference.FamiliarString(named)
}
}
}
return c.c.Image
}
// Command returns's the container's command. If the trunc option is set, the
// returned command is truncated (ellipsized).
func (c *ContainerContext) Command() string {
command := c.c.Command
if c.trunc {
command = Ellipsis(command, 20)
}
return strconv.Quote(command)
}
// CreatedAt returns the "Created" date/time of the container as a unix timestamp.
func (c *ContainerContext) CreatedAt() string {
return time.Unix(c.c.Created, 0).String()
}
// RunningFor returns a human-readable representation of the duration for which
// the container has been running.
//
// Note that this duration is calculated on the client, and as such is influenced
// by clock skew between the client and the daemon.
func (c *ContainerContext) RunningFor() string {
createdAt := time.Unix(c.c.Created, 0)
return units.HumanDuration(time.Now().UTC().Sub(createdAt)) + " ago"
}
// Ports returns a comma-separated string representing open ports of the container
// e.g. "0.0.0.0:80->9090/tcp, 9988/tcp"
// it's used by command 'docker ps'
// Both published and exposed ports are included.
func (c *ContainerContext) Ports() string {
return DisplayablePorts(c.c.Ports)
}
// State returns the container's current state (e.g. "running" or "paused")
func (c *ContainerContext) State() string {
return c.c.State
}
// Status returns the container's status in a human readable form (for example,
// "Up 24 hours" or "Exited (0) 8 days ago")
func (c *ContainerContext) Status() string {
return c.c.Status
}
// Size returns the container's size and virtual size (e.g. "2B (virtual 21.5MB)")
func (c *ContainerContext) Size() string {
if c.FieldsUsed == nil {
c.FieldsUsed = map[string]any{}
}
c.FieldsUsed["Size"] = struct{}{}
srw := units.HumanSizeWithPrecision(float64(c.c.SizeRw), 3)
sv := units.HumanSizeWithPrecision(float64(c.c.SizeRootFs), 3)
sf := srw
if c.c.SizeRootFs > 0 {
sf = fmt.Sprintf("%s (virtual %s)", srw, sv)
}
return sf
}
// Labels returns a comma-separated string of labels present on the container.
func (c *ContainerContext) Labels() string {
if c.c.Labels == nil {
return ""
}
joinLabels := make([]string, 0, len(c.c.Labels))
for k, v := range c.c.Labels {
joinLabels = append(joinLabels, k+"="+v)
}
return strings.Join(joinLabels, ",")
}
// Label returns the value of the label with the given name or an empty string
// if the given label does not exist.
func (c *ContainerContext) Label(name string) string {
if c.c.Labels == nil {
return ""
}
return c.c.Labels[name]
}
// Mounts returns a comma-separated string of mount names present on the container.
// If the trunc option is set, names can be truncated (ellipsized).
func (c *ContainerContext) Mounts() string {
var name string
mounts := make([]string, 0, len(c.c.Mounts))
for _, m := range c.c.Mounts {
if m.Name == "" {
name = m.Source
} else {
name = m.Name
}
if c.trunc {
name = Ellipsis(name, 15)
}
mounts = append(mounts, name)
}
return strings.Join(mounts, ",")
}
// LocalVolumes returns the number of volumes using the "local" volume driver.
func (c *ContainerContext) LocalVolumes() string {
count := 0
for _, m := range c.c.Mounts {
if m.Driver == "local" {
count++
}
}
return strconv.Itoa(count)
}
// Networks returns a comma-separated string of networks that the container is
// attached to.
func (c *ContainerContext) Networks() string {
if c.c.NetworkSettings == nil {
return ""
}
networks := make([]string, 0, len(c.c.NetworkSettings.Networks))
for k := range c.c.NetworkSettings.Networks {
networks = append(networks, k)
}
return strings.Join(networks, ",")
}
// DisplayablePorts returns formatted string representing open ports of container
// e.g. "0.0.0.0:80->9090/tcp, 9988/tcp"
// it's used by command 'docker ps'
func DisplayablePorts(ports []types.Port) string {
type portGroup struct {
first uint16
last uint16
}
groupMap := make(map[string]*portGroup)
var result []string //nolint:prealloc
var hostMappings []string
var groupMapKeys []string
sort.Slice(ports, func(i, j int) bool {
return comparePorts(ports[i], ports[j])
})
for _, port := range ports {
current := port.PrivatePort
portKey := port.Type
if port.IP != "" {
if port.PublicPort != current {
hAddrPort := net.JoinHostPort(port.IP, strconv.Itoa(int(port.PublicPort)))
hostMappings = append(hostMappings, fmt.Sprintf("%s->%d/%s", hAddrPort, port.PrivatePort, port.Type))
continue
}
portKey = port.IP + "/" + port.Type
}
group := groupMap[portKey]
if group == nil {
groupMap[portKey] = &portGroup{first: current, last: current}
// record order that groupMap keys are created
groupMapKeys = append(groupMapKeys, portKey)
continue
}
if current == (group.last + 1) {
group.last = current
continue
}
result = append(result, formGroup(portKey, group.first, group.last))
groupMap[portKey] = &portGroup{first: current, last: current}
}
for _, portKey := range groupMapKeys {
g := groupMap[portKey]
result = append(result, formGroup(portKey, g.first, g.last))
}
result = append(result, hostMappings...)
return strings.Join(result, ", ")
}
func formGroup(key string, start, last uint16) string {
parts := strings.Split(key, "/")
groupType := parts[0]
var ip string
if len(parts) > 1 {
ip = parts[0]
groupType = parts[1]
}
group := strconv.Itoa(int(start))
if start != last {
group = fmt.Sprintf("%s-%d", group, last)
}
if ip != "" {
group = fmt.Sprintf("%s:%s->%s", ip, group, group)
}
return group + "/" + groupType
}
func comparePorts(i, j types.Port) bool {
if i.PrivatePort != j.PrivatePort {
return i.PrivatePort < j.PrivatePort
}
if i.IP != j.IP {
return i.IP < j.IP
}
if i.PublicPort != j.PublicPort {
return i.PublicPort < j.PublicPort
}
return i.Type < j.Type
}